Quantitative analysis of immobilized penicillinase using enzyme-modified AlGaN/GaN field-effect transistors

Biosensors and Bioelectronics

Volumn 64, Issue , 2015, Pages 605-610

  Müntze, Gesche Mareike ^a   Baur, Barbara ^b   Schäfer, Wladimir ^a   Sasse, Alexander ^a   Howgate, John ^b   Röth, Kai ^a   Eickhoff, Martin ^a  

^a JUSTUS LIEBIG UNIVERSITY   (Germany)

^b WALTER SCHOTTKY INSTITUT   (Germany)

Author keywords

AlGaN GaN HEMT; Bioelectronics; Biosensor; EnFET; Functionalization; Penicillinase

Indexed keywords

ALGAN/GAN HEMTS; BIOELECTRONICS; ENFET; FUNCTIONALIZATIONS; PENICILLINASE;

BIOSENSORS;

PENICILLINASE; ALUMINUM DERIVATIVE; ALUMINUM GALLIUM NITRIDE; GALLIUM; IMMOBILIZED ENZYME;

ACIDITY; ARTICLE; CALCULATION; ENZYMATIC DEGRADATION; ENZYME ACTIVITY; ENZYME MECHANISM; ENZYME MODIFICATION; ENZYME STABILITY; ENZYME SUBSTRATE; MICHAELIS CONSTANT; PH; PROTON TRANSPORT; QUANTITATIVE ANALYSIS; REPRODUCIBILITY; SEMICONDUCTOR; TEMPERATURE; CHEMICAL MODEL; CHEMISTRY; COMPUTER AIDED DESIGN; COMPUTER SIMULATION; CONDUCTOMETRY; DEVICE FAILURE ANALYSIS; DEVICES; ELECTRODE; EQUIPMENT DESIGN; GENETIC PROCEDURES;

ALUMINUM COMPOUNDS; BIOSENSING TECHNIQUES; COMPUTER SIMULATION; COMPUTER-AIDED DESIGN; CONDUCTOMETRY; ELECTRODES; ENZYMES, IMMOBILIZED; EQUIPMENT DESIGN; EQUIPMENT FAILURE ANALYSIS; GALLIUM; MODELS, CHEMICAL; PENICILLINASE; TRANSISTORS, ELECTRONIC;

EID: 84907993336     PISSN: 09565663     EISSN: 18734235     Source Type: Journal    
DOI: 10.1016/j.bios.2014.09.062     Document Type: Article

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